CN110654429A - Data logic relation generation method of network topology structure - Google Patents

Abstract

The invention discloses a method for generating a data logic relationship of a network topology structure, which comprises the following steps: the method comprises the steps of configuring turnout equipment, section equipment and annunciator equipment in an equipment queue of a system, traversing the turnout equipment and the section equipment in the equipment queue of the system, generating a logic relationship of the turnout equipment and the section equipment and adding the logic relationship of the turnout equipment and the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system, traversing the annunciator equipment after the turnout equipment and the section equipment are traversed, generating a logic relationship of the annunciator equipment and adding the logic relationship of the annunciator equipment to the logic relationship queue of the annunciator equipment of the system, and generating a network topological structure according to the logic relationship queue of the turnout equipment, the logic relationship of the section equipment and the logic relationship queue of the annunciator equipment of the system.

Description

Data logic relation generation method of network topology structure

Technical Field

The invention relates to the technical field of railway signal automatic control, in particular to a data logic relation generation method of a network topological structure.

Background

With the rapid development of state railways, urban rail transit and industrial and mining process railway industry, the rail control system is rapidly advancing towards the direction of centralization and automation. The yard and the circuit diagram faced by the interlocking control system are more and more complex. Each signal manufacturer has a set of own specific data configuration tool to realize the data configuration work of the complex interlocking station yard. Basically engineers use respective tools for interface drawing, data configuration, and generation and distribution of interlocking data against signal floor plans distributed by the design houses.

Disclosure of Invention

The invention provides a method for generating a data logic relation of a network topology structure, and aims to overcome the defects of large workload of manual filling and high data error probability in the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention discloses a method for generating a data logical relationship of a network topology structure, which comprises the following steps:

configuring turnout equipment, section equipment and signal equipment in an equipment queue of the system;

traversing turnout equipment and section equipment in an equipment queue of the system, generating a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system;

traversing the signal equipment after traversing the turnout equipment and the section equipment, generating a logical relationship of the signal equipment and adding the logical relationship to a logical relationship queue of the signal equipment of the system;

and generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue of the system.

Through global traversal and calculation of the position relation of each device, the logical connection relation of the devices is automatically acquired, so that manual filling is avoided, the quality of data configuration is improved, the workload is greatly reduced, and the probability of data errors is reduced.

Preferably, traversing the switch devices and the segment devices in the device queue of the system, generating the logical relationship between the switch devices and the logical relationship between the segment devices, and adding the logical relationship to the logical relationship queue between the switch devices and the logical relationship queue between the segment devices in the system, includes:

if the current equipment is the zone equipment, connecting the left end point of the zone equipment as a starting point and the end points of the other turnout equipment or the zone equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the zone equipment;

if the current equipment is turnout equipment, connecting the front end point of the turnout equipment as a starting point and the end points of the rest turnout equipment or section equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the section equipment;

and adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system.

Preferably, traversing the signal equipment after the traversing of the turnout equipment and the section equipment is completed, and generating a logic relationship queue of the signal equipment, wherein the logic relationship queue comprises the following steps:

connecting lines by taking a signal center point of the signal equipment as a starting point and end points of all turnout equipment or section equipment in the system as an end point to calculate the logical relationship among the signal equipment, the turnout equipment and the section equipment;

and adding the calculated logical relationship to a signal machine equipment logical relationship queue of the system.

A data logical relationship generation apparatus of a network topology, comprising:

the configuration module is used for configuring turnout equipment, section equipment and signal equipment into a system equipment queue;

the traversing turnout equipment and section equipment module is used for traversing turnout equipment and section equipment to generate a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to a logic relationship queue of the turnout equipment and a logic relationship queue of the section equipment of the system;

the traversing signal equipment module is used for traversing signal equipment to generate a logic relation of the signal equipment and adding the logic relation to a logic relation queue of the signal equipment of the system;

and the network topology structure generating module is used for generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal machine equipment logic relationship queue.

Preferably, the traverse switch device and section device module includes:

the section equipment calculation unit is used for calculating the logical relationship between the section equipment and the turnout equipment;

the turnout equipment calculation unit is used for calculating the logical relationship between the turnout equipment and the section equipment;

and adding a switch equipment logical relationship and section equipment logical relationship unit for adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system.

Preferably, the traversing signal equipment module includes:

the signal equipment computing unit is used for computing the logical relationship among the signal equipment, the turnout equipment and the section equipment;

and the adding annunciator device logical relationship unit is used for adding the calculated logical relationship to an annunciator device logical relationship queue of the system.

An electronic device comprising a memory and a processor, the memory for storing one or more computer instructions, wherein the one or more computer instructions are executed by the processor to implement a method for generating data logical relations for a network topology as recited in any of the above.

A computer-readable storage medium storing a computer program which, when executed, causes a computer to implement a method for generating data logical relations of a network topology according to any one of the above.

The invention has the following beneficial effects:

switches, sections and signal machines in the whole system are integrated into a network topological structure, any equipment is taken as a starting point, other equipment related to the equipment can be traversed, logical connection points can be displayed on an interface, the connection state of the equipment can be visually displayed, the workload of manually associating the logical relation of the equipment is reduced to the maximum extent, the logical connection relation of main equipment of the signal system is automatically generated, and the efficiency of data configuration is improved.

Drawings

FIG. 1 is a flow chart illustrating a method for generating data logical relationships that implements a network topology according to an exemplary embodiment of the present invention;

Detailed Description

The technical solutions in the examples of the present invention will be described clearly and completely with reference to the accompanying drawings, and it is obvious that the described examples are only a part of examples of the present invention, and not all examples. All other examples, which can be obtained by a person skilled in the art without making creative efforts based on the examples in the present invention, belong to the protection scope of the present invention.

Before the technical solution of the present invention is introduced, a scenario to which the technical solution of the present invention may be applicable is exemplarily described.

The following are exemplary: each signal manufacturer has a set of own specific data configuration tool to realize the data configuration work of the complex interlocking station yard, and basically, engineers use respective tools to draw interfaces, configure data and generate and issue interlocking data according to a signal floor plan issued by a design institute.

After the manual interface is drawn, devices such as signal machines, turnouts and sections in the system are independent and do not have any logic connection relation, the logic connection relation of the turnouts and the sections and the signal machine protection information need to be set manually, data are configured in a manual configuration mode, and the problems of large workload of manual filling and high data error probability exist.

Illustratively, as shown in fig. 1, a method for generating a data logical relationship of a network topology includes the following steps:

s100, configuring turnout equipment, section equipment and signal equipment in an equipment queue of a system;

s200, traversing turnout equipment and section equipment in an equipment queue of the system, generating a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system;

s300, traversing the signal equipment after traversing the turnout equipment and the section equipment, generating a logical relationship of the signal equipment and adding the logical relationship to a logical relationship queue of the signal equipment of the system;

and S400, generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue of the system.

The turnout, the section and the annunciator in the whole system are integrated into a network topology structure, any equipment is taken as a starting point, the rest of any equipment associated with the equipment can be traversed, the display of a logical connection point can be carried out on an interface, the connection state of the equipment can be visually displayed, the logical connection relation of the equipment is automatically acquired by globally traversing and calculating the position relation of each equipment, so that the manual filling is avoided, the quality of data configuration is improved, the workload is greatly reduced, and the probability of data errors is reduced.

Illustratively, a method for generating a data logical relationship of a network topology includes:

configuring turnout equipment, section equipment and signal equipment in an equipment queue of the system;

if the current equipment is the zone equipment, connecting the left end point of the zone equipment as a starting point and the end points of the other turnout equipment or the zone equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the zone equipment;

if the current equipment is turnout equipment, connecting the front end point of the turnout equipment as a starting point and the end points of the rest turnout equipment or section equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the section equipment;

adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system;

traversing the signal equipment after traversing the turnout equipment and the section equipment, generating a logical relationship of the signal equipment and adding the logical relationship to a logical relationship queue of the signal equipment of the system;

and generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue of the system.

In a possible mode, if the length of a straight line connecting two points is less than the size of a fixed number of pixels, the left side of the section is considered to be connected with the device, the right side connecting device of the section is also judged by using the same method, after the left and right ends of the section are all calculated, the device information of the section, the left side connecting device information of the section and the right side connecting device information of the section in the logical relationship structure of the section are updated, and if the connecting device does not exist, the device ID is set to be 0.

If the length of the straight line connected with the two points is less than the size of the fixed number of pixels, the front of the turnout is considered to be connected with the equipment, the positioning end point and the inversion end point of the turnout are judged by using the same method, after all three end points of the turnout are calculated, the information of the turnout equipment in the turnout logic relation structure, the information of the front, positioning and inversion connection equipment of the turnout is updated, and if the connection equipment does not exist, the equipment ID is set to be 0.

A selectable calculation mode of logic relation between switch equipment and zone equipment comprises the following steps:

for the connection calculation, for example, a connection between the switch D3 switch front end point P1 and the left end point P2 of the segment G2 is calculated, the coordinates of the switch D3 switch front end point P1 in the system are P1(x1, y1), the coordinates of the right end point P2 of the segment G2 in the system are P2(x2, y2), and the length of the connection L1 between the P1 and the P2 is equal toIn the calculation of the line between two points, if the length L of L1 is L<5, it is considered that the point P1 before the switch D3 switches and the right end point P2 of the segment G2 are associated, and the right side of the recording segment G2 is connected to the point D3 before the switch D3 switches and is connected to the right side of the segment G2.

The position relation of each device is obtained by traversing the turnout and the section device, the logical connection relation of the devices can be automatically obtained, and the problems of large workload and high data error probability caused by manual filling are solved.

Illustratively, a method for generating a data logical relationship of a network topology includes:

configuring turnout equipment, section equipment and signal equipment in an equipment queue of the system;

traversing turnout equipment and section equipment in an equipment queue of the system, generating a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system;

connecting lines by taking a signal center point of the signal equipment as a starting point and end points of all turnout equipment or section equipment in the system as an end point to calculate the logical relationship among the signal equipment, the turnout equipment and the section equipment;

adding the calculated logic relationship to a signal machine equipment logic relationship queue of the system;

and generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue of the system.

One possible way is that if the length of the straight line connecting two points is less than the size of a fixed pixel, the signal and the device are considered to be connected, depending on whether the overall position of the switch or segment is in front of or behind the central point of the signal, if the device is in front of the signal, the device is recorded as the proximity device of the signal, the switch or segment to which the device is connected at that point is the protection device of the signal, if the device is behind the signal, the device is recorded as the protection device of the signal, and the switch or segment to which the device is connected at that point is the proximity device of the signal.

A selectable calculation mode of logic relations among switch equipment, section equipment and signal equipment comprises the following steps:

the length of a connecting line L2 between the central point P3(x3, y3) of the signal S4 and the front point P1 of the turnout D3 is as follows

In the calculation of the line between two points, if the length L of L2 is L<10, regarding the signal S4 and the turnout D3 as being related, recording the direction of the signal S4, intersecting the signal lamp post and the signal lamp position at a point P4(x4, y4), and Dir1 being x4-x 3; in the direction of the switch D3, the center point of the switch D3 is P5(x5, y5), and Dir2 is x5-x 1.

If Dir1 and Dir2 are in the same sign, the switch and the traffic signal are considered to be in the same direction, the guard device of the traffic signal S4 is recorded as a switch D3, the guard position is before the switch of the switch D3, the approach device is connected with the switch D3 before the switch G1, and the approach position is to the right of the section G1.

If Dir1 and Dir2 are opposite signs, the switch and the signal are considered to be reversed, the approach device of the signal is recorded as switch D3, the approach position is before the switch of switch D3, the protection device is connected with device G1 before the switch of switch D3, and the protection position is at the right side of the section G1.

The position relation of each device is obtained by traversing the annunciator device, the logical connection relation of the devices can be automatically obtained, and the problems of large workload and high data error probability caused by manual filling are solved.

Illustratively, a data logical relationship generating apparatus of a network topology includes:

the configuration module is used for configuring turnout equipment, section equipment and signal equipment into a system equipment queue;

the traversing turnout equipment and section equipment module is used for traversing turnout equipment and section equipment to generate a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to a logic relationship queue of the turnout equipment and a logic relationship queue of the section equipment of the system;

the traversing signal equipment module is used for traversing signal equipment to generate a logic relation of the signal equipment and adding the logic relation to a logic relation queue of the signal equipment of the system;

and the network topology structure generating module is used for generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal machine equipment logic relationship queue.

One embodiment of the above apparatus may be: the configuration module configures all turnout equipment, signal equipment and section equipment into an equipment queue of the system, the traversal turnout equipment and section equipment module traverses the turnout equipment and the section equipment to generate a logic relationship of the turnout equipment and a logic relationship of the section equipment and adds the logic relationship of the turnout equipment and the logic relationship of the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system, the traversal signal equipment module traverses the signal equipment to generate a logic relationship of the signal equipment and adds the logic relationship of the signal equipment to the logic relationship queue of the signal equipment of the system, and the generation network topology structure module generates a network topology structure according to the logic relationship queue of the turnout equipment, the logic relationship queue of.

Illustratively, a data logical relationship generating apparatus of a network topology includes:

the configuration module is used for configuring turnout equipment, section equipment and signal equipment into a system equipment queue;

the section equipment calculation unit is used for calculating the logical relationship between the section equipment and the turnout equipment;

the turnout equipment calculation unit is used for calculating the logical relationship between the turnout equipment and the section equipment;

adding a switch equipment logical relationship and section equipment logical relationship unit for adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system;

the traversing signal equipment module is used for traversing signal equipment to generate a logic relation of the signal equipment and adding the logic relation to a logic relation queue of the signal equipment of the system;

and the network topology structure generating module is used for generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal machine equipment logic relationship queue.

One embodiment of the above apparatus may be: the configuration module configures turnout equipment, section equipment and annunciator equipment into a system equipment queue, a section equipment calculation unit calculates a logical relationship between the section equipment and the turnout equipment, a turnout equipment calculation unit calculates a logical relationship between the turnout equipment and the section equipment, a turnout equipment logical relationship adding and section equipment logical relationship adding unit adds the calculated logical relationship to the turnout equipment logical relationship queue and the section equipment logical relationship queue of the system, a traversing annunciator equipment module traverses the annunciator equipment to generate the annunciator equipment logical relationship and adds the logical relationship to the annunciator equipment logical relationship queue of the system, and a network topology structure generating module generates a network topology structure according to the turnout equipment logical relationship queue, the section equipment logical relationship queue and the annunciator equipment logical relationship queue.

Illustratively, a data logical relationship generating apparatus of a network topology includes:

the configuration module is used for configuring turnout equipment, section equipment and signal equipment into a system equipment queue;

the traversing turnout equipment and section equipment module is used for traversing turnout equipment and section equipment to generate a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to a logic relationship queue of the turnout equipment and a logic relationship queue of the section equipment of the system;

the signal equipment computing unit is used for computing the logical relationship among the signal equipment, the turnout equipment and the section equipment;

the adding annunciator equipment logical relationship unit is used for adding the calculated logical relationship to an annunciator equipment logical relationship queue of the system;

and the network topology structure generating module is used for generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal machine equipment logic relationship queue.

One embodiment of the above apparatus may be: the configuration module configures turnout equipment, section equipment and signal equipment into a system equipment queue, the turnout equipment and section equipment module is traversed through the turnout equipment and the section equipment to generate a turnout equipment logic relationship and a section equipment logic relationship and is added into the turnout equipment logic relationship queue and the section equipment logic relationship queue of the system, the signal equipment computing unit computes the logic relationship among the signal equipment, the turnout equipment and the section equipment, the signal equipment logic relationship adding unit adds the computed logic relationship into the signal equipment logic relationship queue of the system, and the network topological structure generating module generates a network topological structure according to the turnout equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue.

Illustratively, an electronic device includes a memory and a processor, the memory is used for storing one or more computer instructions, wherein the one or more computer instructions are executed by the processor to implement the above-mentioned data logical relationship generation method of a network topology.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the electronic device described above may refer to the corresponding process in the foregoing method embodiment, and is not described herein again.

A computer-readable storage medium storing a computer program, which makes a computer implement a method for generating a logical relationship of data of a network topology as described above when the computer program is executed.

Illustratively, a computer program may be partitioned into one or more modules/units, which are stored in a memory and executed by a processor to implement the present invention. One or more modules/units may be a series of computer program instruction segments capable of performing certain functions, the instruction segments being used to describe the execution of a computer program in a computer device.

The computer device may be a desktop computer, a notebook, a palm computer, a cloud server, or other computing devices. The computer device may include, but is not limited to, a memory, a processor. Those skilled in the art will appreciate that the present embodiments are merely exemplary of a computing device and are not intended to limit the computing device, and may include more or fewer components, or some of the components may be combined, or different components, e.g., the computing device may also include input output devices, network access devices, buses, etc.

The processor may be a Central Processing Unit (CPU), other general purpose processor, a Digital Signal Processor (DSP), an Application Specific Integrated Circuit (ASIC), an off-the-shelf programmable gate array (FPGA) or other programmable logic device, discrete gate or transistor logic, discrete hardware components, etc. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The storage may be an internal storage unit of the computer device, such as a hard disk or a memory of the computer device. The memory may also be an external storage device of the computer device, such as a plug-in hard disk provided on the computer device, a Smart Memory Card (SMC), a Secure Digital (SD) card, a flash card (FlashCard), and the like. Further, the memory may also include both internal and external storage units of the computer device. The memory is used for storing computer programs and other programs and data required by the computer device. The memory may also be used to temporarily store data that has been output or is to be output.

The above description is only an embodiment of the present invention, but the technical features of the present invention are not limited thereto, and any changes or modifications within the technical field of the present invention by those skilled in the art are covered by the claims of the present invention.

Claims (8)

1. A method for generating a data logical relationship of a network topology structure is characterized by comprising the following steps:

configuring turnout equipment, section equipment and signal equipment in an equipment queue of the system;

traversing turnout equipment and section equipment in an equipment queue of the system, generating a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to the logic relationship queue of the turnout equipment and the logic relationship queue of the section equipment of the system;

traversing the signal equipment after traversing the turnout equipment and the section equipment, generating a logical relationship of the signal equipment and adding the logical relationship to a logical relationship queue of the signal equipment of the system;

and generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal equipment logic relationship queue of the system.

2. The method for generating data logical relationship of network topology according to claim 1, wherein traversing switch devices and segment devices in a device queue of a system, generating switch device logical relationship and segment device logical relationship and adding to the switch device logical relationship queue and segment device logical relationship queue of the system, comprises:

if the current equipment is the zone equipment, connecting the left end point of the zone equipment as a starting point and the end points of the other turnout equipment or the zone equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the zone equipment;

if the current equipment is turnout equipment, connecting the front end point of the turnout equipment as a starting point and the end points of the rest turnout equipment or section equipment in the system as an end point to calculate the logical relationship between the turnout equipment and the section equipment;

and adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system.

3. The method for generating the data logical relationship of the network topology structure according to claim 1, wherein traversing the signal device after the traversing of the switch device and the segment device is completed, and generating the signal device logical relationship queue comprises:

connecting lines by taking a signal center point of the signal equipment as a starting point and end points of all turnout equipment or section equipment in the system as an end point to calculate the logical relationship among the signal equipment, the turnout equipment and the section equipment;

and adding the calculated logical relationship to a signal machine equipment logical relationship queue of the system.

4. An apparatus for generating a logical relationship of data of a network topology, comprising:

the configuration module is used for configuring turnout equipment, section equipment and signal equipment into a system equipment queue;

the traversing turnout equipment and section equipment module is used for traversing turnout equipment and section equipment to generate a logic relationship of the turnout equipment and a logic relationship of the section equipment, and adding the logic relationship of the turnout equipment and the logic relationship of the section equipment to a logic relationship queue of the turnout equipment and a logic relationship queue of the section equipment of the system;

the traversing signal equipment module is used for traversing signal equipment to generate a logic relation of the signal equipment and adding the logic relation to a logic relation queue of the signal equipment of the system;

and the network topology structure generating module is used for generating a network topology structure according to the switch equipment logic relationship queue, the section equipment logic relationship queue and the signal machine equipment logic relationship queue.

5. The apparatus for generating data logical relationship of network topology according to claim 4, wherein said traversing switch device and segment device module comprises:

the section equipment calculation unit is used for calculating the logical relationship between the section equipment and the turnout equipment;

the turnout equipment calculation unit is used for calculating the logical relationship between the turnout equipment and the section equipment;

and adding a switch equipment logical relationship and section equipment logical relationship unit for adding the calculated logical relationship to a switch equipment logical relationship queue and a section equipment logical relationship queue of the system.

6. The apparatus according to claim 4, wherein the traverse signal equipment module comprises:

the signal equipment computing unit is used for computing the logical relationship among the signal equipment, the turnout equipment and the section equipment;

and the adding annunciator device logical relationship unit is used for adding the calculated logical relationship to an annunciator device logical relationship queue of the system.

7. An electronic device comprising a memory and a processor, the memory configured to store one or more computer instructions, wherein the one or more computer instructions are executed by the processor to implement a method for generating data logical relationships for a network topology as recited in any one of claims 1-3.

8. A computer-readable storage medium storing a computer program, wherein the computer program is configured to cause a computer to execute a method for generating a logical relationship of data of a network topology according to any one of claims 1 to 3.

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